Cross-linked polyethylene for heated floors: advantages of choosing pipes, do-it-yourself installation step by step


The underfloor heating system can significantly increase the level of comfort in the home. The heat generated by the system is distributed in a comfortable zone for the owners and does not stimulate the movement of air with dust. If you have certain skills and knowledge, you can make a floor with a polyethylene pipeline yourself.

We will tell you how to use the most inexpensive material in arranging underfloor heating. In the article we presented, we discussed in detail how to correctly lay cross-linked polyethylene for a heated floor, with what step and according to what pattern to arrange it. Our tips will help you build a perfectly functioning system.

Features of the material

Pipelines for heated floors are made from various raw materials: copper, metal-plastic, but the most modern type is considered to be a cross-linked polyethylene pipe.

Cross-linked polyethylene is a type of ethylene obtained by chemical and physical exposure to it. During production, a three-dimensional cellular network is formed from ethylene molecules. This model is called PEX.

Strength

The strength of this product is given by the transverse connections formed during the production process, in addition to the longitudinal ones. The expansion rate of PEX tubing ranges from 250 to 800%.

In addition, unlike polypropylene, the material has increased durability and does not collapse even with significant temperature changes.

Temperature resistance

When using cross-linked polyethylene hoses, a maximum temperature of 140 degrees is recommended. But melting processes begin when heated from +190 degrees.

The subzero temperatures that this pipeline can withstand, and at which the strength and elasticity of the product are maintained, are -50 degrees Celsius.

For your information! Cross-linked polyethylene has increased resistance to short-term temperature extremes.

Therefore, it is recommended to use it in a low-temperature heating system, where heating is not significant and frequent temperature changes occur. But polyethylene should be used where the pipeline is constantly hot.

Physical properties

Despite the high density of PEX tubes, the material is soft and elastic, and has the following properties:

  • liquid and gases do not pass through it;
  • It bends easily, allowing you to make the tightest turns.

Chemical properties

An improved production process - cross-linking - has made polyethylene more resistant to organic and inorganic influences, and it is also not subject to the destructive effects of solvents.

In addition, the material is resistant to the negative effects of the environment: sunlight and oxygen. This quality is due to the presence of a protective anti-diffusion coating on most models.

Other characteristics

Polyethylene contours have a diameter from 10 to 200 mm. For water heated floors, the recommended size is 16 mm.

Main technical characteristics:

  • wall thickness - 2 mm;
  • meter weight - 110 g;
  • meter volume - 0.113 l;
  • density - 940 sq. m3;
  • degree of thermal conductivity - 0.39 W/mK.

Methods for obtaining PEx

Polyethylene for pipes intended for liquid underfloor heating lines is produced using the peroxide method. The raw materials are heated to 200 0C, hydrogen peroxide is added to the mixture. The reaction results in uniform cross-linking; more than 85% of the polymer molecules bind. The production process takes a long time. The products are expensive, but have good characteristics. Designates the material PEX-a.

The silane method of producing PEX reduces the cost of products. Instead of hydrogen peroxide, silane, water and a catalyst are added to the mixture. Cross-linking of molecules up to 65%. Designated polyethylene PEX-v. It is harder, less elastic, and releases silane when heated strongly. It is not used for the heating system.

Cross-linking is carried out using the radiation method. The raw materials are driven through an electron accelerator. As a result of the reaction, homogeneous atoms form new bonds. Crosslinking is 60%. The material is designated PEX-s. The products are used for cold water pipes.

Advantages and disadvantages of cross-linked polyethylene

Pipeline made of cross-linked polyethylene, like any other type, has its pros and cons.

Advantages:

  1. Elasticity - this allows it to be used when laying circuits with a large bend, without fear of the product creasing.
  2. Environmentally friendly - it does not contain harmful components, so when heated, substances hazardous to human health are not released.
  3. The combustion temperature is high - the complete melting process begins at +400 degrees. But even when decomposed, all components are non-toxic.
  4. Performance indicators - the device does not rot, is not susceptible to corrosion and is not exposed to chemicals. All this guarantees a long service life of water heated floors made from this material.
  5. Frost resistance - no deformation occurs at high sub-zero temperatures.
  6. It has sound-absorbing properties - the floor with a heating element made of cross-linked polyethylene operates silently.
  7. It has the property of “shape memory” - it is able to restore its original appearance.
  8. Has a reasonable price.

One cannot help but mention the minor disadvantages that cross-linked polyethylene pipes have. First of all, this concerns some difficulties during installation.

Pipe bends require reliable fixation. In addition, when laying them in a heated floor structure, you need to be extremely careful so as not to damage the protective coating.

Another disadvantage is the negative impact of direct ultraviolet rays, under which the material becomes fragile.

Construction of polyethylene pipe

Polyethylene contour is a structure of several layers with a reinforcing layer. Reinforcement increases the strength of the product, reduces the degree of expansion and softens pressure surges inside.

The reinforcing gasket can be polypropylene, fiberglass, aluminum foil or sheets. When connecting several pipes, it is necessary to strip this layer by 1 cm.

It is important to know! It is worth noting that for underfloor heating structures, a contour without reinforcement is more often used.

In addition, cross-linked polyethylene has an “oxygen barrier” - anti-diffusion protection. This layer is present in all PEX products. If it is not there, then oxygen penetrates deeper, which leads, albeit slowly, to destruction of the product.

There are several types of cross-linked polyethylene that are used in the manufacture of pipes for heated floors:

  1. PEX - hydrogen peroxide is used in its production. Peroxide cross-linking adds strength and elasticity. Such pipes have the best molecular memory.
  2. PEX-b - silane is used to stitch polyethylene, it holds up to 80% of the molecules together. Contours are equal in strength to the PEX type, but are less elastic and hold their shape less well.
  3. PEX-c - cross-linking is carried out under the influence of radioactive radiation. Pipes are less flexible, as a result of which kinks may form during installation. Eliminated using a coupling.
  4. PEX-d - nitrogen is used for cross-linking, but the technology is complex and rarely used.

Types of fittings for joining cross-linked polyethylene

Today, to sew polyethylene pipes together, the following types of fittings are used.

Pipes and fittings for heating and water supply systems // FORUMHOUSE

Compression

Compression, also called crimp, is a detachable connection method. Fitting - a nut, a split ring and a fitting, most often the elements are made of brass.

Press fittings

With this type of fitting, a non-detachable connection is formed; it is strong and durable. Recommended for use in a structure with a screed, in a system with a high level of pressure and high temperature.

The press fitting includes a body, a ferrule and a sleeve.

Axial

An axial fitting is a device that has a fitting and a sleeve. It is installed using expansion and tension tools.

Causes of malfunction and repair of water heated floors

Correct installation of a water floor guarantees its service for a very long time (up to 50 years) provided that high-quality solid pipes are used.

Methods for laying underfloor heating pipes

In terms of configuration and principle of operation, a water heated floor is quite complex and its performance depends on the high-quality functioning of several important components. The water floor consists of the following elements:

  1. Pipes with water circulating through them, which is the coolant.
  2. Bypass.
  3. Circulation pump.
  4. Collector and electric drive, with the help of which the water flow is regulated.
  5. A balancing valve that mixes heated and cooled water.
  6. Thermostat and thermostat responsible for maintaining the required temperature. If they break down, not only cooling, but also overheating of the coolant is possible.

Basic elements of a warm water floor

As in the case of an electric floor, when identifying the causes of insufficient heating, poor-quality thermal insulation work is allowed, as a result of which significant heat loss is observed. The situation can be corrected only by completely reworking the system from scratch. The reason for poor heat transfer is also incorrect calculation and selection of the characteristics of the main components of the system. A weak boiler can cause a lack of energy to heat the coolant.

Pipeline damage

The cause of a breakthrough and leakage of a water floor is often a sharp drop in pressure inside the pipe. The amount of water in the pipes decreases, and the water that flows out begins to destroy the screed and leak to the lower floor.

To identify a possible leak, first carry out a visual inspection of the floor covering, where wet spots can be found at the joints of the lamellas or directly on the surface. If the presence of moisture cannot be determined by the naked eye or by touch, then use a thermal imager.

If the location of a damaged pipe fragment is discovered, local repairs are carried out by partially dismantling the floor covering and dismantling the screed. Before replacing the pipe, the water from the circuit is drained, and after restarting, the system must be deaerated.

Table 2. Repair for damaged pipes

IllustrationDescription
To remove tiles if damage to the pipeline occurred in the bathroom, the first step is to free the grout from the seams.
The tiles are being dismantled.
To remove the screed, use a hammer drill.
To repair such damage to pipes, a press coupling is used.
At the site of pipe damage, a cut is made using a hacksaw.
The pipe is cleaned of contaminants.
Using a reamer, align the holes on both sides.
A coupling is put on both pipe fragments.
The coupling is crimped with pliers.

Before pouring cement, the repaired area is checked for leaks. To protect the coupling from the acidic environment of the solution, it is wrapped with a piece of foamed polyethylene.

Uneven heating

If the heated floor heats up poorly, the cause may be uneven distribution of water in the pipes. This is due to the different lengths of the circuits - in longer ones, at the same water supply rate, the coolant cools faster. In this case, it will be necessary to adjust the water supply to each circuit on the manifold, and adjust the levels of electric drives on the supply valves.

Warm water floor collector

To understand the results of the changes made to the system, you will need to wait some time. The heating time of a heated floor depends on many nuances: the number and type of layers of the floor structure, the temperature of the coolant and its flow rate, the power of the heater, the type of finishing coating, and weather conditions.

Electrical faults

If there is no leakage, the cause should be sought in the malfunction of system elements operating from the electrical network.

The circulation pump or thermostat, located in the manifold mixing unit, may fail. The presence of voltage in them is checked using a multimeter or an indicator screwdriver. The fact that the pump is not working will be indicated by any difference in sounds when it is turned on.

Heated floor collector elements

Each thermostat terminal will need to be checked for voltage. It is also worth checking the temperature sensor.

Prices for heated floors Caleo

warm floor caleo

If the cause of the breakdown of the heated floor could not be discovered on your own, then it is better to contact specialists who have the necessary tools, skills and experience in eliminating such problems.

Installation of heated floors with cross-linked polyethylene pipelines

Technologically, the installation process for the construction of heated floors from cross-linked polyethylene contours is a step-by-step work of laying layers of the structure. The total thickness of the structure is about 15 cm.

Warm floor made of cross-linked polyethylene

Preparatory work

Before you begin installing the system, you should carry out preparatory steps. First you need to decide on the model of pipes and components.

To install a heated structure you will need:

  • polyethylene pipeline;
  • expansion tank;
  • boiler for heating water;
  • circulation pump;
  • sanitary fittings;
  • fastening elements;
  • manifold, ideally with a hydraulic arrow;
  • damper tape;
  • insulation material and fittings;
  • screed solution.

When choosing a collector unit, it is recommended to give preference to a device with balancing valves and flow meters, this will simplify the process of adjusting the system.

All necessary components should be prepared before installation, so as not to be distracted during the work.

Layout diagram of the heating element

There are several basic schemes that are used when laying underfloor heating pipelines: “snake”, “snail” and “double helix”:

  1. “Snail” is the most common design; it is easy to install and ensures uniform heating of the entire room, since all angles are 90 degrees.
  2. “Snake” - the installation process is more complicated, since the turns reach 180 degrees. According to this scheme, it is good to lay pipes made of cross-linked polyethylene, because they bend easily.

The choice of installation scheme for water floor heating should take into account the characteristics of the room. If the area is large, then a “double snail” or “spiral” is recommended. Also, this model should be used if you want to project the zoning of areas according to the degree of heating.

With a standard “snake” or “snail”, the maximum length of the highway is 60 - 80 meters. In rooms with a significant excess of length over the width of the room, it is allowed to increase the size of the circuit to 120 meters, but the diameter of the pipes must be larger.

An important point when laying pipes is the step of their placement. Usually it is 10 - 35 cm, the smaller it is, the more heat the floor will give off. In some areas where the degree of heat loss is high (near the door and window), the step should be minimized, but in the center of the room it can be increased. Installation of pipes from the walls is carried out at a distance of at least 30 cm.

For your information! It is also recommended to place the collector in the center of the apartment or house, this will allow all rooms to be heated evenly.

Calculation of the number of pipes

Before purchasing cross-linked polyethylene pipes for heated floors, you need to calculate the required size and diameter of the product. According to current practice, contours with a diameter of 16 mm and a wall thickness of 2 mm are considered a suitable option. For a large area, a size of 20 - 25 mm is recommended.

To calculate the amount of product for heating a room, you can use the formula:

D=S / M x k, where:

  • D—design pipe size;
  • S is the size of the room area;
  • M - laying step;
  • k is the safety factor, if the area is 30 m2 - 1.1, larger - 1.4.

The maximum length of the pipeline is affected by the diameter of the circuit. With a diameter of 16 mm - 90 m, 20 - 120, 25 - 150 meters.

Preparing the base for pipes

The actual work on installing the heated floor “pie” should begin with the preparation of the rough base. The process consists of:

  • dismantling the old finishing coating and screed, cleaning and leveling the base;
  • laying waterproofing material - polyethylene film;

For your information! If you have the means, it is better to use a polymer membrane; it will allow the floor to “breathe”.

  • thermal insulation of the base - extruded polystyrene foam tiles or cork are used;
  • placing a reinforcing grid - there is no need for it if polystyrene foam is used as thermal insulation;
  • installation of a damper tape - it is necessary to compensate for the thermal expansion of the screed.

Then, the boiler and manifold are installed at the planned location. The device must be connected to water supply and power supply.

Installation of polyethylene pipes

Polyethylene pipes are laid according to the diagram on polystyrene foam sheets or a reinforcing grid. If the room is large, then the area is divided into several circuits.

To simplify the installation process, it is recommended to make markings on the slabs. You should start from the collector, the second end should also return to it.

Important! Before starting installation, you should consider the method of connecting and fixing the pipes.

It is recommended that the contour be solid (seamless). But if necessary, the tubes are connected to each other, or to the manifold, by welding, or by crimping and pressing fittings.

Sewing the outline using press fittings is a reliable and uncomplicated method. A coupling is put on the hose, then the diameter of the pipe inside is increased to the desired size using an expander. The fitting is screwed in well and the sleeve is put on it.

Fixing pipes to fittings or polystyrene foam boards is done in several ways:

  • polyethylene clamps;
  • steel wire;
  • fixing tracks.

Using clamps is the simplest and most cost-effective option. Only 2 pieces per 1 meter are required. In a straight line, they are mounted every 50 cm, at a turn - 20 cm.

Basic rules for installing a cross-linked polyethylene pipeline:

  • when turning, do not make sharp bends;
  • installation work should be carried out at a temperature of at least +18;
  • if the pipes were in the cold, they should lie in a warm room before laying;
  • the turning radius of a pipeline with a diameter of 16 mm should not exceed 12 cm;
  • cut off the excess length of the circuit only before connecting;
  • It is prohibited to place heavy objects or step on pipes during installation;
  • The contour should be positioned evenly, without twisting.

Water connection and pressure testing

Before pouring the screed, you should check the system for operation and for defects in the line.

Connecting the floor consists of connecting the supply and return hoses to the manifold. After which, it is necessary to open the control and air valves. Then turn on the circulation pump and compressor with a pressure of 5 - 6 bar.

With their help, water is supplied to the main line for 12 hours. In this case, the pressure should exceed the working pressure by 1.5 times. If the clamps were shot off during the process, they are placed again, but 5 cm lower.

After this time, all valves are closed except one, the pressure is set to the operating level, and each branch is adjusted in turn.

Laying scheme

To carry out installation work correctly, during the development of the project, a clear diagram of exactly how the pipes will be located is drawn up. The most popular laying patterns are single or double snake, as well as spiral.

It is important to follow the parameters recommended by experts:

  • The average length of the heating water circuit is recommended within 40-60 m. In any case, making a pipeline longer than 120 m is not effective.
  • The minimum pipe laying pitch is 10 cm, the maximum is 35 cm. If the room has a complex shape, or when it is necessary to increase the heating level, it is possible to use different distances between individual turns of the circuit. Reducing the laying step is allowed near external walls or the entrance door.
  • To lay the damper tape, a distance of 20-30 cm is made from the walls around the perimeter.

Before purchasing polyethylene pipes for heated floors, the first thing you need to do is determine the total length of the circuit.

Filling the screed

Only after checking the device can you proceed to laying the next layer of the structure. There are two options - concrete screed and dry floor.

Concrete screed

For screeding, a mortar, either purchased or made independently from M300 cement, is suitable. The minimum layer of concrete that can protect polyethylene pipes is 3 cm, and the maximum is 7 cm.

Most often, the screed is installed without thermal joints; they are necessary:

  • if the room area is more than 33 m2;
  • if the length of the room exceeds 10 m;
  • with a complex layout.

It is possible to pour reinforcing screed, that is, using reinforcing mesh, this gives strength to the structure.

The screed is poured at a time, the process should begin from the front corner of the room and end at the door. After leveling the concrete surface, the floor is left for 4 weeks to dry completely.

Dry floors

Installing a dry floor over pipes is an easier and faster method, since there are no wet processes, which are labor-intensive and require hardening.

An inexpensive type of dry flooring is expanded clay sand. In addition, if there is a leak, the sand is simply removed and, after the damage is repaired, it is filled up again.

Construction of a base for a heated floor.

Warm floors must be installed on a solid foundation. For example, on a concrete slab. Then the thickness of the “general” floor layer will not exceed 8 cm. When laying the floor directly on the ground, it is necessary to level it as much as possible and insulate it as best as possible. The thickness of the insulation will depend on the weather conditions of the area and the specific location. In the event that the warm floor is laid above the basement, or on floors above the first, the thickness of the insulation will be minimal. About 3 cm.

Insulation and waterproofing.

Instead of thick plastic film, you can use roofing felt. Pieces are cut from a roll of film or roofing felt along the length of the room and laid overlapping each other (overlapping about 20 cm). Also, the waterproofing must be wrapped on the walls.

Insulation is placed on top of the laid waterproofing, which serves to retain heat in the room. Of the many options that modern manufacturers can offer, professionals advise choosing from two options:

  1. Extruded polystyrene foam. It has all the necessary advantages. It has reduced thermal conductivity and increased moisture resistance. It is also very wear-resistant.
  2. Expanded polystyrene in the form of profile mats. The main feature of this type of insulation is the surface with protrusions. This makes it easier to lay pipes. The pitch of the protrusions in this insulation is 5 cm. The main disadvantage is the increased cost compared to EPS.

When choosing the thickness of the insulation layer, several important conditions should be taken into account.

  • When laying insulation directly on the ground, its thickness must be at least 10 cm. You can also consider the option of two-level installation. Two layers of insulation 5 cm thick.
  • When laying insulation in the room under which the basement is located, a layer of 5 cm.
  • When laying on all subsequent floors, its thickness can be up to 3 cm.

To attach the insulation you will need umbrella dowels or disc dowels. Harpoon clamps are required to secure the pipes.

Procedure for laying out insulation:

  1. Level the surface where the thermal insulation will lie. This is best done with sand or rough screed.
  2. Laying pieces of waterproofing. The seams must be taped.
  3. Direct laying of insulation boards joint to joint. (marked side should be up)
  4. The seams between the plates must also be taped.
  5. Secure the insulation with dowels.

If you lay insulation in two layers, you should follow the principle of brickwork. The seams of the top and bottom layers should not match.

Operating rules

The service life of heated floors made of polyethylene pipes is affected by operating conditions - temperature level of the coolant and pressure. PEX pipes withstand temperature changes well, but over time, this leads to their aging.

Basic operating rules that will extend the life of the floor:

  • after installation, it is forbidden to turn on the device to maximum;
  • the water heating level entering the circuit should not exceed +45;
  • When commissioning the system, especially in winter, switching on should be gradual, starting from 2 hours, with a subsequent increase in operating time every day.

Metal-plastic

Metal-plastic consists of two layers of PEX and a layer of aluminum sandwiched between them. This connection allows the use of metal-plastic in water supply and air conditioning systems. Metal-plastic products have a number of positive features:

  • Resistance to aggressive environments;
  • Excellent sound insulation;
  • Corrosion resistance;
  • Good throughput;
  • Easy installation;
  • Long service life.

Heated floor system assembly

Comparison of polyethylene pipes with other materials

A comparison of the polyethylene circuit with pipes made of other materials is shown in the table:

Pipes fromprosMinuses
Cross-linked polyethyleneProducts made from this material can restore their shape. They are heat-resistant, durable, do not corrode, are lightweight, provide noise protection, are environmentally friendly and inexpensive. Cross-linked polyethylene reacts negatively to ultraviolet radiation, so it can only be installed in closed communications.
CopperCopper pipes are durable, they will not melt or crack, they do not allow bacteria to grow and corrosion to develop. Copper products tolerate high and sub-zero temperatures well and are not subject to mechanical stress. Pipes made from this material are expensive and heavy, and do not tolerate hard water saturated with acidity. You cannot combine copper and steel products in one system.
PolypropyleneThis material is non-toxic, resistant to chemicals, pressure and temperature changes. Pipes made from it are lightweight, which simplifies installation. Polypropylene pipes have low flexibility and a high expansion coefficient, which leads to an increase in their dimensions.
Metal-plasticDespite the reasonable cost of metal-plastic pipes, they are durable, not subject to corrosion and are equipped with anti-acid protection. They are light in weight, keep their shape and are environmentally friendly. They bend easily, making installation easier. The two layers that make up the pipes - polyethylene and aluminum - have different amounts of linear expansion, which can cause delamination of the product. There is a risk of pipe rupture when the fitting is pinched, and if threaded fittings are used, then there is a possibility of scale forming inside.

To summarize, we can say that copper pipes for heated floors are an excellent option, but not everyone can afford it. Polypropylene products are cheaper, but not flexible enough, and metal-plastic does not tolerate temperature changes well.

Therefore, the use of cross-linked polyethylene pipelines in heating floors is practical and convenient, and is gaining great popularity every year. In addition, it can withstand freezing, and minor deformations disappear at a comfortable temperature.

However, when choosing pipes for underfloor heating, experts advise taking into account the characteristics of the room and operating conditions; the comfort in the home and the service life of the device depend on this.

Rating
( 2 ratings, average 4.5 out of 5 )
Did you like the article? Share with friends:
For any suggestions regarding the site: [email protected]
Для любых предложений по сайту: [email protected]